#pragma ident "$Id$"

/**
 * @file ModelObs.hpp
 * This is a class to compute modeled (corrected) observations from a mobile
 * receiver using GNSS data structures.
 */

#ifndef MODELOBS_HPP
#define MODELOBS_HPP

//============================================================================
//
//  This file is part of GPSTk, the GPS Toolkit.
//
//  The GPSTk is free software; you can redistribute it and/or modify
//  it under the terms of the GNU Lesser General Public License as published
//  by the Free Software Foundation; either version 2.1 of the License, or
//  any later version.
//
//  The GPSTk is distributed in the hope that it will be useful,
//  but WITHOUT ANY WARRANTY; without even the implied warranty of
//  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
//  GNU Lesser General Public License for more details.
//
//  You should have received a copy of the GNU Lesser General Public
//  License along with GPSTk; if not, write to the Free Software Foundation,
//  Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
//
//  Dagoberto Salazar - gAGE ( http://www.gage.es ). 2006, 2007, 2008
//
//============================================================================



#include "ModelObsFixedStation.hpp"
#include "Bancroft.hpp"
#include "PRSolution.hpp"

namespace gpstk
{

      /** @addtogroup GPSsolutions */
      //@{

      /** This class compute modeled (corrected) observations from satellites
       *  to a mobile receiver using GNSS data structures (GDS).
       *
       * The main difference between this class and ModelObsFixedStation is
       * that for a mobile receiver we should "prepare" the computation giving
       * an estimate of the mobile station position. This position may be the
       * last known position or it may be estimated using a method such as
       * Bancroft's.
       *
       * Prepare() method is used for this.
       *
       * A typical way to use this class follows:
       *
       * @code
       *   RinexObsStream rin("ebre0300.02o");  // Data stream
       *   RinexNavStream rnavin("brdc0300.02n");   // Ephemeris data stream
       *   RinexNavData rNavData;
       *   GPSEphemerisStore bceStore;
       *   while (rnavin >> rNavData) bceStore.addEphemeris(rNavData);
       *   bceStore.SearchPast();  // This is the default
       *
       *   RinexNavHeader rNavHeader;
       *   IonoModelStore ionoStore;
       *   IonoModel ioModel;
       *   rnavin >> rNavHeader;    // Read navigation RINEX header
       *   ioModel.setModel(rNavHeader.ionAlpha, rNavHeader.ionBeta);
       *   ionoStore.addIonoModel(DayTime::BEGINNING_OF_TIME, ioModel);
       *
       *      // EBRE station nominal position
       *   Position nominalPos(4833520.3800, 41536.8300, 4147461.2800);
       *
       *      // Declare a tropospheric model object, setting the defaults
       *   MOPSTropModel mopsTM( nominalPos.getAltitude(),
       *                         nominalPos.getGeodeticLatitude(),
       *                         30 );
       *
       *      // Declare the modeler object, setting all the parameters
       *      // in one pass
       *      // As stated, it will compute the model using the C1 observable
       *   ModelObs model( ionoStore,
       *                   mopsTM,
       *                   bceStore,
       *                   TypeID::C1 );
       *
       *      // Set the initial apriori position using the Bancroft method
       *   model.Prepare();
       *
       *   gnssRinex gRin;
       *
       *   while(rin >> gRin)
       *   {
       *      gRin >> model;
       *   }
       * @endcode
       *
       * The "ModelObs" object will visit every satellite in the
       * GNSS data structure that is "gRin" and will try to compute its
       * model: Prefit residual, geometric distance, relativity delay,
       * ionospheric/tropospheric corrections, geometry matrix, etc.
       *
       * When used with the ">>" operator, this class returns the same
       * incoming data structure with the extra data inserted along their
       * corresponding satellites. Be warned that if a given satellite does
       * not have the observations required, it will be summarily deleted
       * from the data structure.
       *
       * @sa ModelObsFixedStation.hpp for modeling data for a fixed station
       * whose coordinates are known.
       *
       */
   class ModelObs : public ModelObsFixedStation
   {
   public:

         /// Implicit constructor
      ModelObs() : modelPrepared(false)
      { setIndex(); };


         /** Explicit constructor, taking as input initial receiver
          *  coordinates, default ionospheric and tropospheric models,
          *  ephemeris to be used, default observable and whether TGD will
          *  be computed or not.
          *
          * @param RxCoordinates Initial receiver coordinates.
          * @param dIonoModel    Ionospheric model to be used by default.
          * @param dTropoModel   Tropospheric model to be used by default.
          * @param dEphemeris    XvtStore<SatID> object to be used by default.
          * @param dObservable   Observable type to be used by default.
          * @param usetgd        Whether TGD will be used by default or not.
          *
          */
      ModelObs( const Position& RxCoordinates,
                IonoModelStore& dIonoModel,
                TropModel& dTropoModel,
                XvtStore<SatID>& dEphemeris,
                const TypeID& dObservable,
                bool usetgd = true );


         /** Explicit constructor, taking as input initial receiver
          *  coordinates, default ionospheric model, ephemeris to be used,
          *  default observable and whether TGD will be computed or not.
          *
          * The default tropospheric model will be set to NULL.
          *
          * @param RxCoordinates Initial receiver coordinates.
          * @param dIonoModel    Ionospheric model to be used by default.
          * @param dEphemeris    XvtStore<SatID> object to be used by default.
          * @param dObservable   Observable type to be used by default.
          * @param usetgd        Whether TGD will be used by default or not.
          *
          */
      ModelObs( const Position& RxCoordinates,
                IonoModelStore& dIonoModel,
                XvtStore<SatID>& dEphemeris,
                const TypeID& dObservable,
                bool usetgd = true );


         /** Explicit constructor, taking as input initial receiver
          *  coordinates, default tropospheric model, ephemeris to be used,
          *  default observable and whether TGD will be computed or not.
          *
          * The default ionospheric model will be set to NULL.
          *
          * @param RxCoordinates Initial receiver coordinates.
          * @param dTropoModel   Tropospheric model to be used by default.
          * @param dEphemeris    XvtStore<SatID> object to be used by default.
          * @param dObservable   Observable type to be used by default.
          * @param usetgd        Whether TGD will be used by default or not.
          *
          */
      ModelObs( const Position& RxCoordinates,
                TropModel& dTropoModel,
                XvtStore<SatID>& dEphemeris,
                const TypeID& dObservable,
                bool usetgd = true );


         /** Explicit constructor, taking as input initial receiver
          *  coordinates, ephemeris to be used, default observable and
          *  whether TGD will be computed or not.
          *
          * Both the tropospheric and ionospheric models will be set to NULL.
          *
          * @param RxCoordinates Initial receiver coordinates.
          * @param dEphemeris    XvtStore<SatID> object to be used by default.
          * @param dObservable   Observable type to be used by default.
          * @param usetgd        Whether TGD will be used by default or not.
          *
          */
      ModelObs( const Position& RxCoordinates,
                XvtStore<SatID>& dEphemeris,
                const TypeID& dObservable,
                bool usetgd = true );


         /** Explicit constructor, taking as input default ionospheric and
          *  tropospheric models, ephemeris to be used, default observable
          *  and whether TGD will be computed or not.
          *
          * @param dIonoModel    Ionospheric model to be used by default.
          * @param dTropoModel   Tropospheric model to be used by default.
          * @param dObservable   Observable type to be used by default.
          * @param dEphemeris    XvtStore<SatID> object to be used by default.
          * @param usetgd        Whether TGD will be used by default or not.
          *
          */
      ModelObs( IonoModelStore& dIonoModel,
                TropModel& dTropoModel,
                XvtStore<SatID>& dEphemeris,
                const TypeID& dObservable,
                bool usetgd = true );


         /** Explicit constructor, taking as input default ionospheric model,
          *  ephemeris to be used, default observable and whether TGD will be
          *  computed or not.
          *
          * @param dIonoModel    Ionospheric model to be used by default.
          * @param dObservable   Observable type to be used by default.
          * @param dEphemeris    XvtStore<SatID> object to be used by default.
          * @param usetgd        Whether TGD will be used by default or not.
          * @sa DataStructures.hpp.
          */
      ModelObs( IonoModelStore& dIonoModel,
                XvtStore<SatID>& dEphemeris,
                const TypeID& dObservable,
                bool usetgd = true );


         /** Explicit constructor, taking as input default tropospheric model,
          *  ephemeris to be used, default observable and whether TGD will be
          *  computed or not.
          *
          * @param dTropoModel   Tropospheric model to be used by default.
          * @param dObservable   Observable type to be used by default.
          * @param dEphemeris    XvtStore<SatID> object to be used by default.
          * @param usetgd        Whether TGD will be used by default or not.
          *
          */
      ModelObs( TropModel& dTropoModel,
                XvtStore<SatID>& dEphemeris,
                const TypeID& dObservable,
                bool usetgd = true );


         /** Method to set an a priori position of receiver using
          *  Bancroft's method.
          *
          * @param Tr            Time of observation
          * @param Satellite     std::vector of satellites in view
          * @param Pseudorange   std::vector of pseudoranges measured from
          *                      mobile station to satellites
          * @param Eph           Satellites Ephemeris
          *
          * @return
          *  0 if OK
          *  -1 if problems arose
          */
      virtual int Prepare( const DayTime& Tr,
                           std::vector<SatID>& Satellite,
                           std::vector<double>& Pseudorange,
                           const XvtStore<SatID>& Eph );


         /** Method to set an a priori position of receiver using
          *  Bancroft's method.
          *
         * @param time      DayTime object for this epoch
         * @param data      A satTypeValueMap data structure holding the data
         *
         * @return
         *  0 if OK
         *  -1 if problems arose
         */
      virtual int Prepare( const DayTime& time,
                           const satTypeValueMap& data );


         /** Method to set an a priori position of receiver using
          *  Bancroft's method.
          *
          * @param gData         GNSS data structure to be used
          *
          * @return
          *  0 if OK
          *  -1 if problems arose
          */
      virtual int Prepare(const gnssSatTypeValue& gData)
      { return (Prepare(gData.header.epoch, gData.body)); };


         /** Method to set the initial (a priori) position of receiver before
          *  Compute() method.
          * @return
          *  0 if OK
          *  -1 if problems arose
          */
      virtual int Prepare( const double& aRx,
                           const double& bRx,
                           const double& cRx,
                           Position::CoordinateSystem s = Position::Cartesian,
                           GeoidModel *geoid = NULL );


         /** Method to set the initial (a priori) position of receiver before
          *  Compute() method.
          * @return
          *  0 if OK
          *  -1 if problems arose
          */
      virtual int Prepare(const Position& RxCoordinates);


         /** Returns a satTypeValueMap object, adding the new data generated
          *  when calling a modeling object.
          *
          * @param time      Epoch.
          * @param gData     Data object holding the data.
          */
      virtual satTypeValueMap& Process( const DayTime& time,
                                        satTypeValueMap& gData )
         throw(ProcessingException);


         /// Method to get if the model has been prepared.
      inline bool getModelPrepared() const
      { return modelPrepared; };


         /** Method to forcefully set whether the model has been prepared.
          *
          * @param prepare       Boolean indicating whether the model has
          *                      been prepared.
          */
      inline ModelObs& setModelPrepared(const bool& prepare)
      { modelPrepared = prepare; return (*this); };


         /// Returns an index identifying this object.
      virtual int getIndex(void) const;


         /// Returns a string identifying this object.
      virtual std::string getClassName(void) const;


         /// Destructor.
      virtual ~ModelObs() {};


   protected:


      bool modelPrepared;


   private:


         /// Initial index assigned to this class.
      static int classIndex;


         /// Index belonging to this object.
      int index;


         /// Sets the index and increment classIndex.
      void setIndex(void)
      { index = classIndex++; };


   }; // End of class 'ModelObs'

      //@}

}  // End of namespace gpstk
#endif // MODELOBS_HPP
